Post on 23-Aug-2019
transcript
Rohit NarayanGlobal Telecom, ERICO PENTAIR
Melbourne, Australia Rohit.narayan@pentair.com
Mesh Bonded vs Isolated Bonded EarthingNetwork for Indoor Grounding
Mesh Bonded vs Isolated Bonded Earthing Network for Indoor
Grounding
Rohit NarayanGlobal Telecom, ERICO PENTAIR
Melbourne, Australia Rohit.narayan@pentair.com
3
Learning Objectives
At the end of this presentation you will be able to:
• Understand Star-IBN, Mesh-IBN and Mesh-BN methods of indoor grounding as per ITU K27 recommendations
• Understand indoor grounding arrangements as per TIA607 , IEC30129 and BICSI 607 Standards
• Understand indoor grounding arrangement in Telecom Carrier standards including Motorola R56, ATT&T Standards, Verizon Standards
• Understand advantages and disdvantages of MESH vs Star-IBN Systems
4
Parts of Grounding System at Telecom Facility
1. Indoor grounding arrangement
2. Outdoor grounding arrangement
3. AC surge protection for incoming power and DC surge protection for tower mounted radio units.
4. Surge protection & grounding of telephone lines, data lines and RF feeders.
5. Direct strike lightning protection
MESH AND STAR BONDING FORM PART OF THE INDOOR GROUNDING
5
Outline
• Star-IBN, Mesh-IBN and Mesh-BN methods of indoor grounding as per ITU K27 recommendations
• Indoor grounding arrangements as per TIA606, BICSI 607, IEC30129 Standards
• Indoor grounding arrangement in Motorola R56, ATT&T Standards, Verizon Standards, Advantages & disadvantages if MESH & STAR IBN in telecommunications
International Telecommunications Union
https://www.itu.int/ITU-T/recommendations/index.aspx?ser=K
ITU was founded in Paris in 1865 as the International Telegraph Union. It took its present name in 1934, and in 1947 became a specialized
agency of the United Nations.
7
Mesh and Star Methods As per ITU K27
Example Star IBN
Communications Racks
SPD
DB
AC Power
DC AC
DC Power to Racks
AC Power to Racks
Rectifiers
MDF
Main Ground Bar, MGB
Main Earth Bar, MEB
Ground Electrode System
Communications Racks
9
Example – Star IBN
Typical Above Floor SPCW
Example : Mesh Bonded Network
MESH BONDING METHOD MECHANICAL
MESH BONDING CLAMP
TIA 607C Generic Telecommunications Bonding & grounding for Customer Premises
Purpose
The purpose of this Standard is to enable and encourage the planning, design, and installation of generic telecommunications bonding and grounding systems within premises with or without prior knowledge of the telecommunications systems that will subsequently be installed.
.
TIA 607C Generic Telecommunications Bonding & grounding for Customer Premises
Star IBN Example
15
TIA 607C Generic Telecommunications
Bonding & grounding for Customer Premises
7.1.3 COMPUTER ROOMS
Each computer room shall contain a TGB (or TMGB when specified in the design) and should also contain a supplementary bonding network (MESH BONDED NETWORK) that is bonded (and thus becomes grounded) to the TGB or TMGB.
16
INDOOR GROUNDING ANSI/NECA/BICSI 606 2011
17
ANSI/NECA/BICSI 607
Strong consistency with TIA 607 in methods and terminology used
Added clauses to signify that publication is intended to conform to the National Electrical Safety Code® and National Electrical Code®.
Local code requirements shall be followed. ……always review the local code requirements with the local authority having jurisdiction (AHJ) before proceeding with the installation
Limit on TBB size to 3/0 as opposed to 750KCMils for TIA
Quality Control – Best design can be undone by poor implementation, a majority of NECA/BICSI 607 details installation methods and practices to minimize potential grounding system failure.
18
IEC 30129 Standard
19
ISO/IEC3029 Star IBN Example
20
IEC30129 Mesh Bonded Superimposed on Star IBN
21
Star IBN Examples From Telecom Carriers
1) Telcordia GR295 Mesh and Isolated Bonding Networks: Definition and Application to Telephone Central Offices
2) Motorola R56- Standards & Guidelines for Communications Sites
3) AT&T : ATT-TP-76416 Grounding and Bonding Requirements for Network Facilities
4) VERIZON: VZ 330-100-100 CENTRAL OFFICE GROUNDING STANDARDS FOR NEW VERIZON FACILITIES
22
MOTOROLA R56USES STAR ISOLATED BONDED NETWORK
23
AT&T: ATT-TP-76416 GROUNDING AND BONDING REQUIREMENTS FOR NETWORK FACILITIES
• Uses Isolated Bonded Network
• Can be Star-IBN or MESH-IBN or a Combination of both
• Driven historically by equipment grounding need. ie. certain equipment needed mesh bonding network installed below raised floor
• Examples will show how the Star-IBN and MESH – IBN come together
• New Terminology – OPGP – Office Principal Ground Point
– COGB – Central Office Ground Bar
24
AT&T: ATT-TP-76416 GROUNDING AND BONDING REQUIREMENTS FOR NETWORK FACILITIES
25
VERIZON VZW 330-100-11CENTRAL OFFICE LAYOUTUSES Star IBN
MAINLY Star IBN SystemNEW TERMINOLOGY
FGB – Floor Ground BarBGB – Basement Ground Bar
26
The advantages of the MESH Bonding
• Excellent signal reference within the equipment room provided the mesh was of sufficient low impedance
• Excellent noise and EMF control within the equipment room.
• Short piece of ground connection between equipment and the mesh usually installed below raised floor.
• Reduced effect of large voltages across ground loops
• Excellent surge and transient control
• Multiple paths for disturbances to travel, hence less stress on one path
27
The disadvantages on MESH Bonding
• Ground loops always exist and can be problematic if the impedance of the MESH is high
• The strong signal reference offered may not be necessary for balanced pair communications protocols on phone wires or CAT6 wires.
• May not be allowed by the jurisdiction or carrier standards.
• Elements of the Mesh Network may not have the current carrying capacity to handle prospective short circuit currents that could arise from the large prospective battery faults in telecommunications facilities
• AC faults that transfer to the MESH network can get transferred to the low voltage DC power system posing electrocution risks.
• Difficult or impossible to retrofit and install in building without raised floor.
28
Advantages of the Star-IBN system
• Ground loops can be avoided if attention is paid to isolation and cable lengths and sizes
• Can be easily designed to carry prospective battery DC fault currents in telecommunication equipment rooms through correct selection of conductor size.
• Can be dedicated for use on DC powered equipment only, hence reducing the risk of AC faults transferring to the low voltage DC system
• Easy to install and retrofit
• Can be installed in building without raised floors
• Works well on systems where the communication is via balanced pairs on twisted copper.
• Easy for installers of equipment to adhere to when installing equipment down the track from the inception of the site.
29
Disadvantages of the Star-IBN
• Do not provide a good signal reference for communication protocols that need a good reference.
• High impedance at equipment level at high frequencies
• Inadvertent ground loops can cause serious problems if not detected
• If Star IBN is used for DC system exclusively, there is no clarity on how AC equipment should be grounded and isolation of AC equipment can be burdensome.
30
CASE STUDY : BENEFITS OF STAR ISOLATED BONDED NETWORKS
• The following examples will demonstrate examples of star IBN Systems and how these help reduce ground loops and hence equipment damage
31
Star IBN Case Study
Star IBN Case Study
Star IBN Case Study
Star IBN Case Study
38
SummaryThe indoor bonding is perhaps the most important part of the grounding system design:
1) Ensures equipotential bonding 2) Mesh Systems control risks by minimising potential differences3) Star-Isolated Bonded Systems minimize ground loops4) Star IBN more common in DC Power telecom equipment rooms5) MESH IBN and MESH BN Common in AC Power Datacenters6) Cabinet and equipment level bonding is identical regardless of Star-IBN
or MESH-BN7) TIA 607 , BICSI 607 & IEC30129 provide great practical descriptions on
indoor grounding system and applicable to data-centers. 8) Carrier specific and Telcordia standards cover carrier premises
grounding well